Published on in Vol 18, No 6 (2016): Jun

Feasibility and Performance Test of a Real-Time Sensor-Informed Context-Sensitive Ecological Momentary Assessment to Capture Physical Activity

Feasibility and Performance Test of a Real-Time Sensor-Informed Context-Sensitive Ecological Momentary Assessment to Capture Physical Activity

Feasibility and Performance Test of a Real-Time Sensor-Informed Context-Sensitive Ecological Momentary Assessment to Capture Physical Activity

Journals

  1. Degroote L, De Bourdeaudhuij I, Verloigne M, Poppe L, Crombez G. The Accuracy of Smart Devices for Measuring Physical Activity in Daily Life: Validation Study. JMIR mHealth and uHealth 2018;6(12):e10972 View
  2. Consolvo S, Bentley F, Hekler E, Phatak S. Mobile User Research: A Practical Guide. Synthesis Lectures on Mobile and Pervasive Computing 2017;9(1):i View
  3. Liu S, Willoughby J. Do Fitness Apps Need Text Reminders? An Experiment Testing Goal-Setting Text Message Reminders to Promote Self-Monitoring. Journal of Health Communication 2018;23(4):379 View
  4. Reichert M, Giurgiu M, Koch E, Wieland L, Lautenbach S, Neubauer A, von Haaren-Mack B, Schilling R, Timm I, Notthoff N, Marzi I, Hill H, Brüßler S, Eckert T, Fiedler J, Burchartz A, Anedda B, Wunsch K, Gerber M, Jekauc D, Woll A, Dunton G, Kanning M, Nigg C, Ebner-Priemer U, Liao Y. Ambulatory assessment for physical activity research: State of the science, best practices and future directions. Psychology of Sport and Exercise 2020;50:101742 View
  5. Bedard C, King-Dowling S, McDonald M, Dunton G, Cairney J, Kwan M. Understanding Environmental and Contextual Influences of Physical Activity During First-Year University: The Feasibility of Using Ecological Momentary Assessment in the MovingU Study. JMIR Public Health and Surveillance 2017;3(2):e32 View
  6. Dunton G, Berrigan D, Young D, Pfeiffer K, Lee S, Slater S, Pate R. Strategies to Improve Physical Activity Surveillance among Youth in the United States. The Journal of Pediatrics 2019;210:226 View
  7. van Wel L, Huss A, Bachmann P, Zahner M, Kromhout H, Fröhlich J, Vermeulen R. Context-sensitive ecological momentary assessments; integrating real-time exposure measurements, data-analytics and health assessment using a smartphone application. Environment International 2017;103:8 View
  8. Chaix B. Mobile Sensing in Environmental Health and Neighborhood Research. Annual Review of Public Health 2018;39(1):367 View
  9. Day J, Freiberg K, Hayes A, Homel R. Towards Scalable, Integrative Assessment of Children’s Self-Regulatory Capabilities: New Applications of Digital Technology. Clinical Child and Family Psychology Review 2019;22(1):90 View
  10. Degroote L, DeSmet A, De Bourdeaudhuij I, Van Dyck D, Crombez G. Content validity and methodological considerations in ecological momentary assessment studies on physical activity and sedentary behaviour: a systematic review. International Journal of Behavioral Nutrition and Physical Activity 2020;17(1) View
  11. Spruijt-Metz D, Wen C, Bell B, Intille S, Huang J, Baranowski T. Advances and Controversies in Diet and Physical Activity Measurement in Youth. American Journal of Preventive Medicine 2018;55(4):e81 View
  12. Tamura K, Langerman S, Ceasar J, Andrews M, Agrawal M, Powell-Wiley T. Neighborhood Social Environment and Cardiovascular Disease Risk. Current Cardiovascular Risk Reports 2019;13(4) View
  13. Zapata-Lamana R, Lalanza J, Losilla J, Parrado E, Capdevila L. mHealth technology for ecological momentary assessment in physical activity research: a systematic review. PeerJ 2020;8:e8848 View
  14. Ponnada A, Thapa-Chhetry B, Manjourides J, Intille S. Measuring Criterion Validity of Microinteraction Ecological Momentary Assessment (Micro-EMA): Exploratory Pilot Study With Physical Activity Measurement. JMIR mHealth and uHealth 2021;9(3):e23391 View

Books/Policy Documents

  1. Paglialonga A, Mastropietro A, Scalco E, Rizzo G. m_Health Current and Future Applications. View